Fundamentals of Structural Mechanics [electronic resource] / by Keith D. Hjelmstad.

By: Hjelmstad, Keith D [author.]Contributor(s): SpringerLink (Online service)Material type: TextTextLanguage: English Publisher: Boston, MA : Springer US, 2005Edition: Second EditionDescription: XIV, 480 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9780387233314Subject(s): Engineering | Mechanics, applied | Civil engineering | Engineering | Civil Engineering | Numerical and Computational Methods in Engineering | Theoretical and Applied MechanicsAdditional physical formats: Printed edition:: No titleDDC classification: 624 LOC classification: TA1-2040Online resources: Click here to access online
Contents:
Vectors and Tensors -- The Geometry of Deformation -- The Transmission of Force -- Elastic Constitutive Theory -- Boundary Value Problems in Elasticity -- The Ritz Method of Approximation -- The Linear Theory of Beams -- The Linear Theory of Plates -- Energy Principles and Static Stability -- Fundamental Concepts in Static Stability -- The Planar Buckling of Beams -- Numerical Computation for Nonlinear Problems.
In: Springer eBooksSummary: The last few decades have witnessed a dramatic increase in the application of numerical computation to problems in solid and structural mechanics. The burgeoning of computational mechanics opened a pedagogical gap between traditional courses in elementary strength of materials and the finite element method that classical courses on advanced strength of materials and elasticity do not adequately fill. In the past, our ability to formulate theory exceeded our ability to compute. In those days, solid mechanics was for virtuosos. With the advent of the finite element method, our ability to compute has surpassed our ability to formulate theory. As a result, continuum mechanics is no longer the province of the specialist. What an engineer needs to know about mechanics has been forever changed by our capacity to compute. This book attempts to capitalize on the pedagogi­ cal opportunities implicit in this shift of perspective. It now seems more ap­ propriate to focus on fundamental principles and formulations than on classical solution techniques.
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Vectors and Tensors -- The Geometry of Deformation -- The Transmission of Force -- Elastic Constitutive Theory -- Boundary Value Problems in Elasticity -- The Ritz Method of Approximation -- The Linear Theory of Beams -- The Linear Theory of Plates -- Energy Principles and Static Stability -- Fundamental Concepts in Static Stability -- The Planar Buckling of Beams -- Numerical Computation for Nonlinear Problems.

The last few decades have witnessed a dramatic increase in the application of numerical computation to problems in solid and structural mechanics. The burgeoning of computational mechanics opened a pedagogical gap between traditional courses in elementary strength of materials and the finite element method that classical courses on advanced strength of materials and elasticity do not adequately fill. In the past, our ability to formulate theory exceeded our ability to compute. In those days, solid mechanics was for virtuosos. With the advent of the finite element method, our ability to compute has surpassed our ability to formulate theory. As a result, continuum mechanics is no longer the province of the specialist. What an engineer needs to know about mechanics has been forever changed by our capacity to compute. This book attempts to capitalize on the pedagogi­ cal opportunities implicit in this shift of perspective. It now seems more ap­ propriate to focus on fundamental principles and formulations than on classical solution techniques.

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